Ground state atom

美 [ɡraʊnd steɪt ˈætəm]英 [ɡraʊnd steɪt ˈætəm]
  • 网络基态原子
Ground state atomGround state atom
  1. So , if we 're talking about five different orbitals and we 're talking about a ground state atom , we know that we just need to start at the bottom and work our way out up .

    因此,如果我们要讨论的是,五个不同的轨道且是属于一个基态原子的话,我们知道,我们只需要从最低的轨道,开始一个一个往上找。

  2. Measurement of the ground state copper atom density in a magnetically confined discharge

    磁约束铜蒸气放电中基态铜原子密度的测量

  3. It is shown hat the process of virtual photons shortens the lifetime of atom in excitation state , and remits in drift of energy levels of the ground state of atom .

    结果表明,虚光子过程使原子处在激发态的寿命缩短,并导致原子的基态能漂移。

  4. Using absorption method , we measured the ground state copper atom density in a magnetically confined discharge , and found that the density of the atom was the degree of 10 14 cm - 3 , and was suited to copper vapor laser action .

    利用吸收方法测量了磁约束铜蒸气放电中的基态铜原子密度,近室温的气体放电条件下得到铜原子密度达1014cm-3量级。

  5. Calculation of the Energy Levels of the Ground State of Nitrogen Atom

    氮原子基态能量的计算

  6. There is a stable ground state of the atom .

    原子有一个稳定的基态。

  7. Classical Oscillator Model of the Ground State of Hydrogen Atom

    氢原子的基态经典振子模型

  8. A Double-Parameter Variational Calculation on the Ground State Energy of Atom Lithium

    关于锂原子基态能量的双参数变分计算

  9. Quantitative proof for the ground state of kalium atom

    钾原子基态的定量证明

  10. A deduction of radial wave functions for the ground state of hydrogen atom in the light of information entropy maximal

    用信息熵极大推导氢原子基态径向波函数的尝试

  11. AC Zeeman shift of hyperfine sublevel of ground state of rubidium atom

    铷原子基态子能级的ACZeeman移动

  12. The shift of the ground state of a hydrogen atom due to the cloud of virtual photons

    氢原子基态能因虚光子云作用而发生的漂移

  13. Bohr radius was the radius of the circle in which the electron moved in the ground state of the hydrogen atom , according to the Bohr theory .

    根据玻尔理论,玻尔半径是在基态氢原子中电子运动的圆周半径。

  14. The single-electron wave function of the ground state of the helium atom is obtained from Hylleraas ' well-known wave function by integrating the latter over the coordinates of one electron .

    将Hylleraas氏之著名波动函数对一个电子之各座标积分之,吾人求得正常状态氦单一电子之波动函子。